Real-time alarming and regulation-based monitoring

Real-time structural and environmental control for safe and compliant construction works

Why monitor construction sites?

Construction activities can affect surrounding structures and soils through vibrations, settlements, load redistributions, and environmental impact.
Monitoring is essential to ensure regulatory compliance, reduce risk during excavation or demolition, and track behavior of temporary or permanent structures.

WIRELESS SHM WORKFLOW

How structural monitoring system works

From sensor installation to data analysis, Move Solutions delivers a fully wireless structural health monitoring solution.

Install sensors

Deploy wireless devices on site. Sensors connect automatically via LoRaWAN.

Collect and manage data

Data flows to the cloud and is managed in MyMove, remotely and in real time.

Analyze structural behavior

Turn raw data into engineering insights with advanced built-in Tools for smart structural analysis.

Automate reporting

Generate customized PDF reports automatically—ready to share with contractors, stakeholders, or authorities.

main benefits

Why choose Move Solutions for construction site monitoring

Track structural movement, ground stability, and environmental conditions in real time—without interrupting site operations. Move Solutions provides a fully wireless, easy-to-deploy system that supports both temporary campaigns and long-term construction monitoring across complex work zones.

Fast and cable-free installation—no disruption to site activities
Wireless sensors for both structural and environmental parameters
High-frequency sampling for dynamic events like pile driving or demolition
Triggered alarms and real-time data for authorities and contractors

Recommended sensors

Move Solutions offers high-precision, low-power sensors for structural, geotechnical, and environmental monitoring.

Explore all Move Solutions devices

The all-in-one
structural health monitoring platform

MyMove is the cloud platform that powers your structural health monitoring system.
It collects data from wireless and third-party sensors, organizes it by asset, and delivers engineering-grade insights—anytime, anywhere.

Discover MyMove

From sensor data to structural insight

Analyze time-series data, compare sensors, and uncover structural trends. MyMove turns raw measurements into insight and delivers shareable PDF reports automatically.

Create custom charts and profiles

Correlate multiples historical trends

Custom PDF templates with branding and layout

Scheduled reports for clients and authorities

Remote configuration and alarm control

MyMove enables full remote management of your structural monitoring system. Directly from the platform, engineers can configure sampling intervals, communication frequency, firmware updates, and threshold-based alarms based on real-time or derived parameters.

Sensor-level configuration of acquisition mode, frequency, triggers, and more

Definition of multi-parameter alarms and threshold conditions

Continuous diagnostics on signal strength and connectivity

Smart tools for structural health monitoring

MyMove includes built-in Advanced Tools specifically designed to simplify and optimize the monitoring of complex infrastructure applications.
No external software. No post-processing. Just clear, actionable insights.

Tiltmeter Chains Tool – compute spatial displacement and deformation trendsure frequency, triggers, and more

Modal Analysis Tool – identify modal frequencies, damping, and vibration modes

Rail Monitoring Tool – track cant, twist, and vertical alignment over time

Correlate long-term behavior

View synchronized time-series graphs from multiple sensors. Compare parameters, track anomalies, and analyze structural evolution over time.

Full control of raw sensor data

Design branded templates, select the data you need, and let MyMove send updated reports on schedule—automatically.

Custom PDF reports for any stakeholder

Download CSV files with custom-selected columns and structure. Ideal for offline processing or integration into external workflows.

Monitor health and connectivity

Track battery status, signal quality, and device uptime in real time. MyMove ensures system reliability with continuous diagnostics.

Manage devices remotely

Define sampling intervals, transmission frequency, and sensor behavior directly from the platform—no on-site access needed.

Set multi-parameter alarms

Create custom alarm logic by combining multiple parameters or conditions. Enable early detection of anomalies with precision thresholds.

Modal Analysis Tool

Extract modal frequencies and mode shapes from synchronized accelerometers. Built for structural diagnostics on bridges and dynamic infrastructure.

Tiltmeter Chains Tool

Visualize deformation trends over time and space by linking multiple tiltmeters in horizontal or vertical chains. Ideal for retaining walls, façades, and tunnel linings.

Bulk sensor setup & calibration

Configure acquisition settings, apply calibration coefficients, and unlock advanced parameter processing across sensor networks.
Explore mymove in 20 minutes

Book a live demo with our team

Discover how our platform collects data, manages your sensors remotely, and delivers structural insights—live, in one call.

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Everything you need to monitor your construction site

Get the full brochure to explore sensor configurations and monitored parameters.

Download construction site monitoring brochure
case studies

Worldwide success stories

Discover how our monitoring systems are used worldwide to solve real engineering challenges across bridges, tunnels, railways, and more.

Bridge Monitoring

The Chetwynd Bridge Monitoring

The Chetwynd Bridge, a Grade I* listed three-arch cast-iron structure, located in Staffordshire, England, is the largest surviving pre-1830s cast-iron bridge in England and the second largest in the world. Due to the historical significance and age of the bridge, a detailed restoration project was initiated to repair the ironwork and restore the paintwork in a way that aligned with its historical importance.

Staffordshire, UK

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Railway and Landslip Monitoring

North York Moors Railway Monitoring

This project has been conducted by Academy Geomatics Ltd in collaboration with the North York Moors National Park Authority. The goal was to establish a comprehensive, real-time monitoring system to assess the behaviour of a landslip along the North Yorkshire Moors Railway, in order to ensure the safety and longevity of this crucial transportation link. Finding a suitable location for a total station proved challenging, as there wasn’t a spot that was both clear of the train tracks and had a view of the landslip. The valley offered limited stable ground for securing reference prisms. Moreover, the dense ferns and bracken, growing over a meter tall during summer, posed a risk of blocking the line of sight.

North Yorkshire, UK

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Building Monitoring

Building Monitoring After the 2023 Turkey-Syria Earthquake

On the 6th of February 2023, a magnitude 7.8 earthquake occurred in southern Turkey near the northern border of Syria. […] 200,000 buildings were destroyed, leaving the community in a state of vulnerability. To bring them some support in this critical situation, Emmanuel Durand partnered with Move Solutions, who donated the necessary sensors for the project to monitor and analyze the structural conditions of two hospitals and a large student residence after the earthquake. That enabled the collection of valuable data for post-earthquake analysis and facilitated the return of people to these essential facilities.

Iskenderun, Hatay, Turkey

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Ready to monitor your construction sites?

Talk to our engineers, schedule a demo, or request a proposal.

Contact our team